Abstract
Anthropogenic linear features facilitate access and travel efficiency for predators, and can influence predator distribution and encounter rates with prey. We used GPS collar data from eight wolf packs and characteristics of seismic lines to investigate whether ease-of-travel or access to areas presumed to be preferred by prey best explained seasonal selection patterns of wolves near seismic lines, and whether the density of anthropogenic features led to functional responses in habitat selection. At a broad scale, wolves showed evidence of habitat-driven functional responses by exhibiting greater selection for areas near low-vegetation height seismic lines in areas with low densities of anthropogenic features. We highlight the importance of considering landscape heterogeneity and habitat characteristics, and the functional response in habitat selection when investigating seasonal behaviour-based selection patterns. Our results support behaviour in line with search for primary prey during summer and fall, and ease-of-travel during spring, while patterns of selection during winter aligned best with ease-of-travel for the less-industrialized foothills landscape, and with search for primary prey in the more-industrialized boreal landscape. These results highlight that time-sensitive restoration actions on anthropogenic features can affect the probability of overlap between predators and threatened prey within different landscapes.
Highlights
Anthropogenic linear features facilitate access and travel efficiency for predators, and can influence predator distribution and encounter rates with prey
Using Global Positioning System (GPS) collar data spanning 7 years and collected from eight resident wolf packs in west-central Alberta, Canada, we demonstrated evidence of consistent landscape-scale functional response in habitat selection driven by industrial activity, where wolves were more likely to rest or feed in areas near relatively low vegetation height seismic lines within areas of low densities of anthropogenic features
Our results suggest that effects of industrial activity drive a functional response in habitat selection for wolves selecting areas near seismic lines
Summary
Anthropogenic linear features facilitate access and travel efficiency for predators, and can influence predator distribution and encounter rates with prey. Our results support behaviour in line with search for primary prey during summer and fall, and ease-of-travel during spring, while patterns of selection during winter aligned best with ease-of-travel for the less-industrialized foothills landscape, and with search for primary prey in the more-industrialized boreal landscape These results highlight that time-sensitive restoration actions on anthropogenic features can affect the probability of overlap between predators and threatened prey within different landscapes. Landscape heterogeneity and cumulative effects of industrial activity can add levels of complexity to our understanding of how wildlife perceive their environment by altering functional responses in habitat selection, which in turn can influence predator–prey dynamics in complex landscapes
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